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    Please use this identifier to cite or link to this item: http://ir.lib.ncu.edu.tw/handle/987654321/6321


    Title: 以衰減全反射傅氏紅外線光譜技術 研究親膜胜?干擾脂質膜的機制;The ATR-FTIR investigation on lipid-affinity peptide induced membrane perturbation
    Authors: 劉昱攢;Yu-tsan Liu
    Contributors: 化學研究所
    Keywords: 衰減全反射傅氏紅外線光譜;穿膜蛋白;蜂毒;膜擾動;次序係數;融合胜肽;transmembrane domain;order parameter;fusion peptide;melittin;ATR-FTIR
    Date: 2007-07-09
    Issue Date: 2009-09-22 10:17:33 (UTC+8)
    Publisher: 國立中央大學圖書館
    Abstract: 蛋白質與脂質膜會發生多樣的交互作用,例如包膜病毒表面融合蛋白誘導的膜融合和蜂毒蛋白對細胞膜的消溶作用。其中,病毒表面的融合胜肽、胞外區與穿膜蛋白在病毒進入宿主細胞的過程中扮演了重要角色,蜂毒在脂質膜上的排列狀態與結構與其消溶的活性亦息息相關。本論文以衰減全反射霍氐紅外線光譜將上述幾種胜肽在脂質膜中的性質作一番探討。我們以化學合成方法將HIV和Influenza的融合胜肽、穿膜蛋白兩種胜肽合成出來,用E.coli表現胞外區蛋白,與脂質層混合後使用衰減全反射霍氏紅外線光譜偵測,我們發現融合蛋白的蛋白質二級結構以β結構為主,穿膜蛋白則以α螺旋為主。融合蛋白以傾斜角度約50度插入多層膜內部,穿膜蛋白則如同穿膜一樣以較為垂直的33度插入膜內,但依膜組成不同亦有不同角度出現;我們也發現脂質膜的分子排列均會隨融合胜肽或穿膜蛋白加入而更擾動,不過特別的是當HIV融合胜肽與穿膜胜肽等比例共存在脂質膜中時,脂質膜分子排列會趨於穩定,但Influenza沒有這種情況;而HIV和Influenza均可以在C=O吸收的地方,發現融合胜肽與穿膜胜肽在脂質膜中共存時造成的明顯去水作用。胞外區蛋白結構以α螺旋為主,以接近70度的角度,幾乎平躺在脂質膜上;以外加一段融合胜肽的胞外區蛋白比較,其對於脂質膜的擾動作用並不明顯。 蜂毒蛋白在負電性的脂質膜中,有比中性脂質膜更多的α螺旋結構,以ATR-FTIR和之前文獻推測,蜂毒蛋白應該是以4聚體頭尾相接的聚集方式,單體與空間Z軸呈50度斜躺的方式陷入脂質膜表面,形成四邊形的脂質膜孔洞。本論文利用ATR-FTIR技術驗證闡明,HIV與Influenza在後融合時期的脂質膜狀態有所不同,並驗證蜂毒在脂質膜上的排列模型,應該是由四聚體頭尾構成的四邊形孔洞,與前人所提的模型有部分差異。 Protein and lipid interaction is important for biology. For example, fusion protein of enveloped virus would mediate the viral membrane fusion, melittin has the hemolytic effect on cell membrane. Fusion peptide, ectodomain and transmembrane domain of viral fusion protein play pivotal roles in viral entry. Aggregation and the orientation of Melittin in membrane may determine its hemolytic activity. We synthesized HIV and Influenza fusion peptide and transmembrane domain by solid phase synthesis, and HIV ectodomain were expressed by E.coli system. Then ATR-FTIR was used to determine the properties of these lipid-affinity peptide and protein in lipid membrane. We found that fusion peptide has major β-sheet structure and transmembrane domain has major α-helix structure. Fusion peptide has tilt angle respect to membrane normal about 50°. Transmembrane domain has almost vertical angle (33°), but the angle may be different by changing the lipid composition.The lipid molecule will be more perturbation by adding the HIV and Influenza fusion peptide or transmembrane domain individually, however, the HIV fusion peptide and transmembrane domain will make lipid membrane molecule more order when they are together in lipid. We also found fusion peptide and transmembrane domain mixture will make membrane more dehydration than other peptide lonely. Finally, the HIV ectodomain can’t almost make any interaction on membrane comparing other lipid-affinity protein. Melittin has more α-helix in electro-negative membrane, we thought that melittin should be 4-monomer combined by head to tail attach. The monomer was lying on membrane surface by 50° and formed a quadrangle pore. The new melittin model provided a clue to explain melittin pore-formation mechanism.
    Appears in Collections:[Graduate Institute of Chemistry] Electronic Thesis & Dissertation

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